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A Provably Good and Practically Efficient Algorithm for Common Path Pessimism Removal in Large Designs

Zizheng Guo, Tsung‐Wei Huang, Yibo Lin

202130 citationsDOI

Abstract

Common path pessimism removal (CPPR) is imperative for eliminating redundant pessimism during static timing analysis (STA). However, turning on CPPR can significantly increase the analysis runtime by $10-100\times$ in large designs. Recent years have seen much research on improving the algorithmic efficiencies of CPPR, but most are architecturally constrained by either the speed-accuracy trade-off or design-specific pruning heuristics. In this paper, we introduce a novel CPPR algorithm that is provably good and practically efficient. We have evaluated our algorithm on large industrial designs and demonstrated promising performance over the current state-of-the-art. As an example, our algorithm outperforms the baseline by $36-135\times$ faster when generating the top-10K post-CPPR critical paths on a million-gate design. At the extreme, our algorithm with one core is even $4-16\times$ faster than the baseline with 8 cores.

Topics & Concepts

HeuristicsBaseline (sea)PruningComputer sciencePath (computing)PessimismAlgorithmAlgorithm designCore (optical fiber)Parallel computingOperating systemBiologyEpistemologyOceanographyTelecommunicationsPhilosophyAgronomyGeologyProgramming languageLow-power high-performance VLSI designVLSI and Analog Circuit TestingVLSI and FPGA Design Techniques
A Provably Good and Practically Efficient Algorithm for Common Path Pessimism Removal in Large Designs | Litcius